Biology:Leporidae

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Short description: Family of lagomorphs

Rabbits and hares[1]
Temporal range: 53–0 Ma
Eocene-Holocene
Arctic Hare 1.jpg
Arctic hare (Lepus arcticus)
Scientific classification e
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Lagomorpha
Family: Leporidae
Fischer de Waldheim, 1817
Type genus
Lepus
Linnaeus, 1758
Genera

Pentalagus
Bunolagus
Nesolagus
Romerolagus
Brachylagus
Sylvilagus
Oryctolagus
Poelagus
Caprolagus
Pronolagus
Lepus
Aztlanolagus
Nuralagus

Skeleton of Alaskan Hare on display at the Museum of Osteology.

Leporidae (/ləˈpɔːrɪd, -d/) is the family of rabbits and hares, containing over 70 species of extant mammals in all. The Latin word Leporidae means "those that resemble lepus" (hare). Together with the pikas, the Leporidae constitute the mammalian order Lagomorpha. Leporidae differ from pikas in that they have short, furry tails and elongated ears and hind legs.

The common name "rabbit" usually applies to all genera in the family except Lepus, while members of Lepus (almost half the species) usually are called hares. Like most common names, however, the distinction does not match current taxonomy completely; jackrabbits are members of Lepus, and members of the genera Pronolagus and Caprolagus sometimes are called hares.

Various countries across all continents except Antarctica and Australia have indigenous species of Leporidae. Furthermore, rabbits, most significantly the European rabbit, Oryctolagus cuniculus, also have been introduced to most of Oceania and to many other islands, where they pose serious ecological and commercial threats.

Characteristics

Leporids are small to moderately sized mammals, adapted for rapid movement. They have long hind legs, with four toes on each foot, and shorter fore legs, with five toes each. The soles of their feet are hairy, to improve grip while running, and they have strong claws on all of their toes. Leporids also have distinctive, elongated and mobile ears, and they have an excellent sense of hearing. Their eyes are large, and their night vision is good, reflecting their primarily nocturnal or crepuscular mode of living.[2]

Leporids are all roughly the same shape and fall within a small range of sizes with short tails, ranging in overall length from the 21 cm (8 in) long Tres Marias cottontail to the 76 cm (30 in) long desert hare. Female leporids are almost always larger than males, which is unusual among terrestrial mammals. [3]

Both rabbits and hares are almost exclusively herbivorous (although some Lepus species are known to eat carrion), [4][5] feeding primarily on grasses and herbs, although they also eat leaves, fruit, and seeds of various kinds. They are coprophagous, as they pass food through their digestive systems twice, first expelling it as soft green feces, called cecotropes, which they then reingest, eventually producing hard, dark fecal pellets. The dental formula of leporids is: 2.0.3.31.0.2.3 = 28.[6]

They have adapted to a remarkable range of habitats, from desert to tundra, forests, mountains, and swampland. Some rabbits dig burrows for shelter, the exact form of which varies between species. Other rabbits do not dig burrows but use forms, usually under a bush. Hares rarely dig shelters of any kind, instead using forms, and their bodies are more suited to fast running than to burrowing.[2]

Reproduction

Leporids are typically polygynandrous, and some have highly developed social systems. Their social hierarchies determine which males mate. Rabbits are induced ovulators (ovulate during mating). [7]

Species nesting below ground tend to have lower predation rates and have larger litters.[8]

The gestation period in leporids varies from around 28 to 50 days, and is generally longer in the hares. This is in part because young hares (called leverets) are born precocial (eyes and ears open, fully furred), while young rabbits (called kits) are born altricial (eyes and ears closed, no fur).[2] Higher latitudes correspond to shorter gestation periods.[9] Leporids can have several litters a year, which can cause their population to expand dramatically in a short time when resources are plentiful. Gestation period and litter size correspond to predation rates as well.

Evolution

Serengetilagus praecapensis skull, Naturkundemuseum, Berlin

The oldest known leporid species date from the late Eocene, by which time the family was already present in both North America and Asia. Over the course of their evolution, this group has become increasingly adapted to lives of fast running and leaping. For example, Palaeolagus, an extinct rabbit from the Oligocene of North America, had shorter hind legs than modern forms (indicating it ran rather than hopped) though it was in most other respects quite rabbit-like.[10] Two as yet unnamed fossil finds—dated ~48 Ma (48 million yr) ago (from China ) and ~53 Ma (53 million yr) ago (India )—while primitive, display the characteristic leporid ankle, thus pushing the divergence of Ochotonidae and Leporidae yet further into the past.[11]

The cladogram is from Matthee et al., 2004, based on nuclear and mitochondrial gene analysis.[12]

Leporidae

Nesolagus (striped rabbits)

Poelagus (Bunyoro rabbit)

Pronolagus (red rock hares)

Romerolagus (volcano rabbit)

Sylvilagus (cottontails) Wild animals of North America, intimate studies of big and little creatures of the mammal kingdom (Page 511) (Sylvilagus palustris).jpg

Brachylagus (pygmy rabbit)

Caprolagus (hispid hare)

Oryctolagus (European rabbit) Lepus cuniculus - 1700-1880 - Print - Iconographia Zoologica -(white background).jpg

Bunolagus (riverine rabbit)

Pentalagus (Amami rabbit)

Lepus (hares) Lepus timidus - 1700-1880 - Print - Iconographia Zoologica -(white background).jpg

Classification

Main page: Biology:List of leporids

Family Leporidae:[1] rabbits and hares

Predation

Predators of rabbits and hares include raccoons, snakes, eagles, canids, cats, mustelids, owls and hawks. Animals that eat roadkill rabbits include vultures and buzzards.

See also

References

  1. 1.0 1.1 Hoffman, R.S.; Smith, A.T. (2005). "Order Lagomorpha". in Wilson, D.E.; Reeder, D.M. Mammal Species of the World: A Taxonomic and Geographic Reference (3rd ed.). Johns Hopkins University Press. pp. 194–211. ISBN 978-0-8018-8221-0. OCLC 62265494. http://www.departments.bucknell.edu/biology/resources/msw3/browse.asp?id=13500001. 
  2. 2.0 2.1 2.2 Chapman, J.; Schneider, E. (1984). MacDonald, D.. ed. The Encyclopedia of Mammals. New York: Facts on File. pp. 714–719. ISBN 978-0-87196-871-5. https://archive.org/details/encyclopediaofma00mals_0/page/714. 
  3. Ralls, Katherine (June 1976). "Mammals in Which Females are Larger Than Males". The Quarterly Review of Biology 51 (2): 245–276. doi:10.1086/409310. PMID 785524. 
  4. Best, Troy L.; Henry, Travis Hill (1994). "Lepus arcticus". Mammalian Species (American Society of Mammalogists) (457): 1–9. 2 June 1994. doi:10.2307/3504088. OCLC 46381503. 
  5. "Snowshoe Hare". eNature: FieldGuides. eNature.com. 2007. http://www.enature.com/fieldguides/detail.asp?curFamilyID=556&curGroupID=5&lgfromWhere=&curPageNum=2. 
  6. Elbroch, Mark (2006). Animal Skulls : A Guide to North American Species. Mechanicsburg, PA: Stackpole Books. pp. 249-259. ISBN 978-0-8117-3309-0. 
  7. Bell, Diana; Smith, Andrew T. (2006). "Lagomorphs". The Encyclopedia of Mammals. London: The Brown Reference Group. p. 695. ISBN 0-681-45659-0. 
  8. Virgós, Emilio; Cabezas-Díaz, Sara; Blanco-Aguiar, José Antonio (1 August 2006). "Evolution of life history traits in Leporidae: a test of nest predation and seasonality hypotheses". Biological Journal of the Linnean Society 88 (4): 603–610. doi:10.1111/j.1095-8312.2006.00646.x. ISSN 1095-8312. 
  9. Chapman, Joseph A. (1 September 1984). "Latitude and Gestation Period in New World Rabbits (Leporidae: Sylvilagus and Romerolagus)". The American Naturalist 124 (3): 442–445. doi:10.1086/284286. 
  10. Savage, R.J.G.; Long, M.R. (1986). Mammal Evolution: an illustrated guide. New York: Facts on File. pp. 128–129. ISBN 978-0-8160-1194-0. https://archive.org/details/mammalevolutioni0000sava. 
  11. Handwerk, Brian (21 March 2008). "Easter Surprise: World's Oldest Rabbit Bones Found". National Geographic News (National Geographic Society). http://news.nationalgeographic.com/news/2008/03/080321-rabbit-bones.html. 
  12. Matthee, Conrad A. (2004). "A Molecular Supermatrix of the Rabbits and Hares (Leporidae) Allows for the Identification of Five Intercontinental Exchanges During the Miocene". Systematic Biology 53 (3): 433–477. doi:10.1080/10635150490445715. PMID 15503672. 


Wikidata ☰ Q25900 entry